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|
/* $OpenLDAP$ */
/* This work is part of OpenLDAP Software <http://www.openldap.org/>.
*
* Copyright 1998-2021 The OpenLDAP Foundation.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted only as authorized by the OpenLDAP
* Public License.
*
* A copy of this license is available in the file LICENSE in the
* top-level directory of the distribution or, alternatively, at
* <http://www.OpenLDAP.org/license.html>.
*/
/*
* int lutil_passwd(
* const struct berval *passwd,
* const struct berval *cred,
* const char **schemes )
*
* Returns true if user supplied credentials (cred) matches
* the stored password (passwd).
*
* Due to the use of the crypt(3) function
* this routine is NOT thread-safe.
*/
#include "portable.h"
#include <stdio.h>
#include <ac/stdlib.h>
#include <ac/string.h>
#include <ac/unistd.h>
#if defined(SLAPD_LMHASH)
#if defined(HAVE_OPENSSL)
# include <openssl/des.h>
typedef DES_cblock des_key;
typedef DES_cblock des_data_block;
typedef DES_key_schedule des_context[1];
#define des_failed(encrypted) 0
#define des_finish(key, schedule)
#elif defined(HAVE_MOZNSS)
/*
hack hack hack
We need to define this here so that nspr/obsolete/protypes.h will not be included
if that file is included, it will create a uint32 typedef that will cause the
one in lutil_sha1.h to blow up
*/
#define PROTYPES_H 1
# include <nss/pk11pub.h>
typedef PK11SymKey *des_key;
typedef unsigned char des_data_block[8];
typedef PK11Context *des_context[1];
#define DES_ENCRYPT CKA_ENCRYPT
#endif
#endif /* SLAPD_LMHASH */
#include <ac/param.h>
#ifdef SLAPD_CRYPT
# include <ac/crypt.h>
# if defined( HAVE_GETPWNAM ) && defined( HAVE_STRUCT_PASSWD_PW_PASSWD )
# ifdef HAVE_SHADOW_H
# include <shadow.h>
# endif
# ifdef HAVE_PWD_H
# include <pwd.h>
# endif
# ifdef HAVE_AIX_SECURITY
# include <userpw.h>
# endif
# endif
#endif
#include <lber.h>
#include "ldap_pvt.h"
#include "lber_pvt.h"
#include "lutil_md5.h"
#include "lutil_sha1.h"
#include "lutil.h"
static const unsigned char crypt64[] =
"ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz1234567890./";
#ifdef SLAPD_CRYPT
static char *salt_format = NULL;
static lutil_cryptfunc lutil_crypt;
lutil_cryptfunc *lutil_cryptptr = lutil_crypt;
#endif
/* KLUDGE:
* chk_fn is NULL iff name is {CLEARTEXT}
* otherwise, things will break
*/
struct pw_scheme {
struct berval name;
LUTIL_PASSWD_CHK_FUNC *chk_fn;
LUTIL_PASSWD_HASH_FUNC *hash_fn;
};
struct pw_slist {
struct pw_slist *next;
struct pw_scheme s;
};
/* password check routines */
#define SALT_SIZE 4
static LUTIL_PASSWD_CHK_FUNC chk_md5;
static LUTIL_PASSWD_CHK_FUNC chk_smd5;
static LUTIL_PASSWD_HASH_FUNC hash_smd5;
static LUTIL_PASSWD_HASH_FUNC hash_md5;
#ifdef LUTIL_SHA1_BYTES
static LUTIL_PASSWD_CHK_FUNC chk_ssha1;
static LUTIL_PASSWD_CHK_FUNC chk_sha1;
static LUTIL_PASSWD_HASH_FUNC hash_sha1;
static LUTIL_PASSWD_HASH_FUNC hash_ssha1;
#endif
#ifdef SLAPD_LMHASH
static LUTIL_PASSWD_CHK_FUNC chk_lanman;
static LUTIL_PASSWD_HASH_FUNC hash_lanman;
#endif
#ifdef SLAPD_CRYPT
static LUTIL_PASSWD_CHK_FUNC chk_crypt;
static LUTIL_PASSWD_HASH_FUNC hash_crypt;
#if defined( HAVE_GETPWNAM ) && defined( HAVE_STRUCT_PASSWD_PW_PASSWD )
static LUTIL_PASSWD_CHK_FUNC chk_unix;
#endif
#endif
/* password hash routines */
#ifdef SLAPD_CLEARTEXT
static LUTIL_PASSWD_HASH_FUNC hash_clear;
#endif
static struct pw_slist *pw_schemes;
static int pw_inited;
static const struct pw_scheme pw_schemes_default[] =
{
#ifdef LUTIL_SHA1_BYTES
{ BER_BVC("{SSHA}"), chk_ssha1, hash_ssha1 },
{ BER_BVC("{SHA}"), chk_sha1, hash_sha1 },
#endif
{ BER_BVC("{SMD5}"), chk_smd5, hash_smd5 },
{ BER_BVC("{MD5}"), chk_md5, hash_md5 },
#ifdef SLAPD_LMHASH
{ BER_BVC("{LANMAN}"), chk_lanman, hash_lanman },
#endif /* SLAPD_LMHASH */
#ifdef SLAPD_CRYPT
{ BER_BVC("{CRYPT}"), chk_crypt, hash_crypt },
# if defined( HAVE_GETPWNAM ) && defined( HAVE_STRUCT_PASSWD_PW_PASSWD )
{ BER_BVC("{UNIX}"), chk_unix, NULL },
# endif
#endif
#ifdef SLAPD_CLEARTEXT
/* pseudo scheme */
{ BER_BVC("{CLEARTEXT}"), NULL, hash_clear },
#endif
{ BER_BVNULL, NULL, NULL }
};
int lutil_passwd_add(
struct berval *scheme,
LUTIL_PASSWD_CHK_FUNC *chk,
LUTIL_PASSWD_HASH_FUNC *hash )
{
struct pw_slist *ptr;
if (!pw_inited) lutil_passwd_init();
ptr = ber_memalloc( sizeof( struct pw_slist ));
if (!ptr) return -1;
ptr->next = pw_schemes;
ptr->s.name = *scheme;
ptr->s.chk_fn = chk;
ptr->s.hash_fn = hash;
pw_schemes = ptr;
return 0;
}
void lutil_passwd_init()
{
struct pw_scheme *s;
pw_inited = 1;
for( s=(struct pw_scheme *)pw_schemes_default; s->name.bv_val; s++) {
if ( lutil_passwd_add( &s->name, s->chk_fn, s->hash_fn ) ) break;
}
}
void lutil_passwd_destroy()
{
struct pw_slist *ptr, *next;
for( ptr=pw_schemes; ptr; ptr=next ) {
next = ptr->next;
ber_memfree( ptr );
}
}
static const struct pw_scheme *get_scheme(
const char* scheme )
{
struct pw_slist *pws;
struct berval bv;
if (!pw_inited) lutil_passwd_init();
bv.bv_val = strchr( scheme, '}' );
if ( !bv.bv_val )
return NULL;
bv.bv_len = bv.bv_val - scheme + 1;
bv.bv_val = (char *) scheme;
for( pws=pw_schemes; pws; pws=pws->next ) {
if ( ber_bvstrcasecmp(&bv, &pws->s.name ) == 0 ) {
return &(pws->s);
}
}
return NULL;
}
int lutil_passwd_scheme(
const char* scheme )
{
if( scheme == NULL ) {
return 0;
}
return get_scheme(scheme) != NULL;
}
static int is_allowed_scheme(
const char* scheme,
const char** schemes )
{
int i;
if( schemes == NULL ) return 1;
for( i=0; schemes[i] != NULL; i++ ) {
if( strcasecmp( scheme, schemes[i] ) == 0 ) {
return 1;
}
}
return 0;
}
static struct berval *passwd_scheme(
const struct pw_scheme *scheme,
const struct berval * passwd,
struct berval *bv,
const char** allowed )
{
if( !is_allowed_scheme( scheme->name.bv_val, allowed ) ) {
return NULL;
}
if( passwd->bv_len >= scheme->name.bv_len ) {
if( strncasecmp( passwd->bv_val, scheme->name.bv_val, scheme->name.bv_len ) == 0 ) {
bv->bv_val = &passwd->bv_val[scheme->name.bv_len];
bv->bv_len = passwd->bv_len - scheme->name.bv_len;
return bv;
}
}
return NULL;
}
/*
* Return 0 if creds are good.
*/
int
lutil_passwd(
const struct berval *passwd, /* stored passwd */
const struct berval *cred, /* user cred */
const char **schemes,
const char **text )
{
struct pw_slist *pws;
if ( text ) *text = NULL;
if (cred == NULL || cred->bv_len == 0 ||
passwd == NULL || passwd->bv_len == 0 )
{
return -1;
}
if (!pw_inited) lutil_passwd_init();
for( pws=pw_schemes; pws; pws=pws->next ) {
if( pws->s.chk_fn ) {
struct berval x;
struct berval *p = passwd_scheme( &(pws->s),
passwd, &x, schemes );
if( p != NULL ) {
return (pws->s.chk_fn)( &(pws->s.name), p, cred, text );
}
}
}
#ifdef SLAPD_CLEARTEXT
/* Do we think there is a scheme specifier here that we
* didn't recognize? Assume a scheme name is at least 1 character.
*/
if (( passwd->bv_val[0] == '{' ) &&
( ber_bvchr( passwd, '}' ) > passwd->bv_val+1 ))
{
return 1;
}
if( is_allowed_scheme("{CLEARTEXT}", schemes ) ) {
return ( passwd->bv_len == cred->bv_len ) ?
memcmp( passwd->bv_val, cred->bv_val, passwd->bv_len )
: 1;
}
#endif
return 1;
}
int lutil_passwd_generate( struct berval *pw, ber_len_t len )
{
if( len < 1 ) return -1;
pw->bv_len = len;
pw->bv_val = ber_memalloc( len + 1 );
if( pw->bv_val == NULL ) {
return -1;
}
if( lutil_entropy( (unsigned char *) pw->bv_val, pw->bv_len) < 0 ) {
return -1;
}
for( len = 0; len < pw->bv_len; len++ ) {
pw->bv_val[len] = crypt64[
pw->bv_val[len] % (sizeof(crypt64)-1) ];
}
pw->bv_val[len] = '\0';
return 0;
}
int lutil_passwd_hash(
const struct berval * passwd,
const char * method,
struct berval *hash,
const char **text )
{
const struct pw_scheme *sc = get_scheme( method );
hash->bv_val = NULL;
hash->bv_len = 0;
if( sc == NULL ) {
if( text ) *text = "scheme not recognized";
return -1;
}
if( ! sc->hash_fn ) {
if( text ) *text = "scheme provided no hash function";
return -1;
}
if( text ) *text = NULL;
return (sc->hash_fn)( &sc->name, passwd, hash, text );
}
/* pw_string is only called when SLAPD_LMHASH or SLAPD_CRYPT is defined */
#if defined(SLAPD_LMHASH) || defined(SLAPD_CRYPT)
static int pw_string(
const struct berval *sc,
struct berval *passwd )
{
struct berval pw;
pw.bv_len = sc->bv_len + passwd->bv_len;
pw.bv_val = ber_memalloc( pw.bv_len + 1 );
if( pw.bv_val == NULL ) {
return LUTIL_PASSWD_ERR;
}
AC_MEMCPY( pw.bv_val, sc->bv_val, sc->bv_len );
AC_MEMCPY( &pw.bv_val[sc->bv_len], passwd->bv_val, passwd->bv_len );
pw.bv_val[pw.bv_len] = '\0';
*passwd = pw;
return LUTIL_PASSWD_OK;
}
#endif /* SLAPD_LMHASH || SLAPD_CRYPT */
int lutil_passwd_string64(
const struct berval *sc,
const struct berval *hash,
struct berval *b64,
const struct berval *salt )
{
int rc;
struct berval string;
size_t b64len;
if( salt ) {
/* need to base64 combined string */
string.bv_len = hash->bv_len + salt->bv_len;
string.bv_val = ber_memalloc( string.bv_len + 1 );
if( string.bv_val == NULL ) {
return LUTIL_PASSWD_ERR;
}
AC_MEMCPY( string.bv_val, hash->bv_val,
hash->bv_len );
AC_MEMCPY( &string.bv_val[hash->bv_len], salt->bv_val,
salt->bv_len );
string.bv_val[string.bv_len] = '\0';
} else {
string = *hash;
}
b64len = LUTIL_BASE64_ENCODE_LEN( string.bv_len ) + 1;
b64->bv_len = b64len + sc->bv_len;
b64->bv_val = ber_memalloc( b64->bv_len + 1 );
if( b64->bv_val == NULL ) {
if( salt ) ber_memfree( string.bv_val );
return LUTIL_PASSWD_ERR;
}
AC_MEMCPY(b64->bv_val, sc->bv_val, sc->bv_len);
rc = lutil_b64_ntop(
(unsigned char *) string.bv_val, string.bv_len,
&b64->bv_val[sc->bv_len], b64len );
if( salt ) ber_memfree( string.bv_val );
if( rc < 0 ) {
return LUTIL_PASSWD_ERR;
}
/* recompute length */
b64->bv_len = sc->bv_len + rc;
assert( strlen(b64->bv_val) == b64->bv_len );
return LUTIL_PASSWD_OK;
}
/* PASSWORD CHECK ROUTINES */
#ifdef LUTIL_SHA1_BYTES
static int chk_ssha1(
const struct berval *sc,
const struct berval * passwd,
const struct berval * cred,
const char **text )
{
lutil_SHA1_CTX SHA1context;
unsigned char SHA1digest[LUTIL_SHA1_BYTES];
int rc;
unsigned char *orig_pass = NULL;
size_t decode_len = LUTIL_BASE64_DECODE_LEN(passwd->bv_len);
/* safety check -- must have some salt */
if (decode_len <= sizeof(SHA1digest)) {
return LUTIL_PASSWD_ERR;
}
/* decode base64 password */
orig_pass = (unsigned char *) ber_memalloc(decode_len + 1);
if( orig_pass == NULL ) return LUTIL_PASSWD_ERR;
rc = lutil_b64_pton(passwd->bv_val, orig_pass, decode_len);
/* safety check -- must have some salt */
if (rc <= (int)(sizeof(SHA1digest))) {
ber_memfree(orig_pass);
return LUTIL_PASSWD_ERR;
}
/* hash credentials with salt */
lutil_SHA1Init(&SHA1context);
lutil_SHA1Update(&SHA1context,
(const unsigned char *) cred->bv_val, cred->bv_len);
lutil_SHA1Update(&SHA1context,
(const unsigned char *) &orig_pass[sizeof(SHA1digest)],
rc - sizeof(SHA1digest));
lutil_SHA1Final(SHA1digest, &SHA1context);
/* compare */
rc = memcmp((char *)orig_pass, (char *)SHA1digest, sizeof(SHA1digest));
ber_memfree(orig_pass);
return rc ? LUTIL_PASSWD_ERR : LUTIL_PASSWD_OK;
}
static int chk_sha1(
const struct berval *sc,
const struct berval * passwd,
const struct berval * cred,
const char **text )
{
lutil_SHA1_CTX SHA1context;
unsigned char SHA1digest[LUTIL_SHA1_BYTES];
int rc;
unsigned char *orig_pass = NULL;
size_t decode_len = LUTIL_BASE64_DECODE_LEN(passwd->bv_len);
/* safety check */
if (decode_len < sizeof(SHA1digest)) {
return LUTIL_PASSWD_ERR;
}
/* base64 un-encode password */
orig_pass = (unsigned char *) ber_memalloc(decode_len + 1);
if( orig_pass == NULL ) return LUTIL_PASSWD_ERR;
rc = lutil_b64_pton(passwd->bv_val, orig_pass, decode_len);
if( rc != sizeof(SHA1digest) ) {
ber_memfree(orig_pass);
return LUTIL_PASSWD_ERR;
}
/* hash credentials with salt */
lutil_SHA1Init(&SHA1context);
lutil_SHA1Update(&SHA1context,
(const unsigned char *) cred->bv_val, cred->bv_len);
lutil_SHA1Final(SHA1digest, &SHA1context);
/* compare */
rc = memcmp((char *)orig_pass, (char *)SHA1digest, sizeof(SHA1digest));
ber_memfree(orig_pass);
return rc ? LUTIL_PASSWD_ERR : LUTIL_PASSWD_OK;
}
#endif
static int chk_smd5(
const struct berval *sc,
const struct berval * passwd,
const struct berval * cred,
const char **text )
{
lutil_MD5_CTX MD5context;
unsigned char MD5digest[LUTIL_MD5_BYTES];
int rc;
unsigned char *orig_pass = NULL;
size_t decode_len = LUTIL_BASE64_DECODE_LEN(passwd->bv_len);
/* safety check */
if (decode_len <= sizeof(MD5digest)) {
return LUTIL_PASSWD_ERR;
}
/* base64 un-encode password */
orig_pass = (unsigned char *) ber_memalloc(decode_len + 1);
if( orig_pass == NULL ) return LUTIL_PASSWD_ERR;
rc = lutil_b64_pton(passwd->bv_val, orig_pass, decode_len);
if (rc <= (int)(sizeof(MD5digest))) {
ber_memfree(orig_pass);
return LUTIL_PASSWD_ERR;
}
/* hash credentials with salt */
lutil_MD5Init(&MD5context);
lutil_MD5Update(&MD5context,
(const unsigned char *) cred->bv_val,
cred->bv_len );
lutil_MD5Update(&MD5context,
&orig_pass[sizeof(MD5digest)],
rc - sizeof(MD5digest));
lutil_MD5Final(MD5digest, &MD5context);
/* compare */
rc = memcmp((char *)orig_pass, (char *)MD5digest, sizeof(MD5digest));
ber_memfree(orig_pass);
return rc ? LUTIL_PASSWD_ERR : LUTIL_PASSWD_OK;
}
static int chk_md5(
const struct berval *sc,
const struct berval * passwd,
const struct berval * cred,
const char **text )
{
lutil_MD5_CTX MD5context;
unsigned char MD5digest[LUTIL_MD5_BYTES];
int rc;
unsigned char *orig_pass = NULL;
size_t decode_len = LUTIL_BASE64_DECODE_LEN(passwd->bv_len);
/* safety check */
if (decode_len < sizeof(MD5digest)) {
return LUTIL_PASSWD_ERR;
}
/* base64 un-encode password */
orig_pass = (unsigned char *) ber_memalloc(decode_len + 1);
if( orig_pass == NULL ) return LUTIL_PASSWD_ERR;
rc = lutil_b64_pton(passwd->bv_val, orig_pass, decode_len);
if ( rc != sizeof(MD5digest) ) {
ber_memfree(orig_pass);
return LUTIL_PASSWD_ERR;
}
/* hash credentials with salt */
lutil_MD5Init(&MD5context);
lutil_MD5Update(&MD5context,
(const unsigned char *) cred->bv_val,
cred->bv_len );
lutil_MD5Final(MD5digest, &MD5context);
/* compare */
rc = memcmp((char *)orig_pass, (char *)MD5digest, sizeof(MD5digest));
ber_memfree(orig_pass);
return rc ? LUTIL_PASSWD_ERR : LUTIL_PASSWD_OK;
}
#ifdef SLAPD_LMHASH
#if defined(HAVE_OPENSSL)
/*
* abstract away setting the parity.
*/
static void
des_set_key_and_parity( des_key *key, unsigned char *keyData)
{
memcpy(key, keyData, 8);
DES_set_odd_parity( key );
}
#elif defined(HAVE_MOZNSS)
/*
* implement MozNSS wrappers for the openSSL calls
*/
static void
des_set_key_and_parity( des_key *key, unsigned char *keyData)
{
SECItem keyDataItem;
PK11SlotInfo *slot;
*key = NULL;
keyDataItem.data = keyData;
keyDataItem.len = 8;
slot = PK11_GetBestSlot(CKM_DES_ECB, NULL);
if (slot == NULL) {
return;
}
/* NOTE: this will not work in FIPS mode. In order to make lmhash
* work in fips mode we need to define a LMHASH pbe mechanism and
* do the fulll key derivation inside the token */
*key = PK11_ImportSymKey(slot, CKM_DES_ECB, PK11_OriginGenerated,
CKA_ENCRYPT, &keyDataItem, NULL);
}
static void
DES_set_key_unchecked( des_key *key, des_context ctxt )
{
ctxt[0] = NULL;
/* handle error conditions from previous call */
if (!*key) {
return;
}
ctxt[0] = PK11_CreateContextBySymKey(CKM_DES_ECB, CKA_ENCRYPT, *key, NULL);
}
static void
DES_ecb_encrypt( des_data_block *plain, des_data_block *encrypted,
des_context ctxt, int op)
{
SECStatus rv;
int size;
if (ctxt[0] == NULL) {
/* need to fail here... */
memset(encrypted, 0, sizeof(des_data_block));
return;
}
rv = PK11_CipherOp(ctxt[0], (unsigned char *)&encrypted[0],
&size, sizeof(des_data_block),
(unsigned char *)&plain[0], sizeof(des_data_block));
if (rv != SECSuccess) {
/* signal failure */
memset(encrypted, 0, sizeof(des_data_block));
return;
}
return;
}
static int
des_failed(des_data_block *encrypted)
{
static const des_data_block zero = { 0 };
return memcmp(encrypted, zero, sizeof(zero)) == 0;
}
static void
des_finish(des_key *key, des_context ctxt)
{
if (*key) {
PK11_FreeSymKey(*key);
*key = NULL;
}
if (ctxt[0]) {
PK11_Finalize(ctxt[0]);
PK11_DestroyContext(ctxt[0], PR_TRUE);
ctxt[0] = NULL;
}
}
#endif
/* pseudocode from RFC2433
* A.2 LmPasswordHash()
*
* LmPasswordHash(
* IN 0-to-14-oem-char Password,
* OUT 16-octet PasswordHash )
* {
* Set UcasePassword to the uppercased Password
* Zero pad UcasePassword to 14 characters
*
* DesHash( 1st 7-octets of UcasePassword,
* giving 1st 8-octets of PasswordHash )
*
* DesHash( 2nd 7-octets of UcasePassword,
* giving 2nd 8-octets of PasswordHash )
* }
*
*
* A.3 DesHash()
*
* DesHash(
* IN 7-octet Clear,
* OUT 8-octet Cypher )
* {
* *
* * Make Cypher an irreversibly encrypted form of Clear by
* * encrypting known text using Clear as the secret key.
* * The known text consists of the string
* *
* * KGS!@#$%
* *
*
* Set StdText to "KGS!@#$%"
* DesEncrypt( StdText, Clear, giving Cypher )
* }
*
*
* A.4 DesEncrypt()
*
* DesEncrypt(
* IN 8-octet Clear,
* IN 7-octet Key,
* OUT 8-octet Cypher )
* {
* *
* * Use the DES encryption algorithm [4] in ECB mode [9]
* * to encrypt Clear into Cypher such that Cypher can
* * only be decrypted back to Clear by providing Key.
* * Note that the DES algorithm takes as input a 64-bit
* * stream where the 8th, 16th, 24th, etc. bits are
* * parity bits ignored by the encrypting algorithm.
* * Unless you write your own DES to accept 56-bit input
* * without parity, you will need to insert the parity bits
* * yourself.
* *
* }
*/
static void lmPasswd_to_key(
const char *lmPasswd,
des_key *key)
{
const unsigned char *lpw = (const unsigned char *) lmPasswd;
unsigned char k[8];
/* make room for parity bits */
k[0] = lpw[0];
k[1] = ((lpw[0] & 0x01) << 7) | (lpw[1] >> 1);
k[2] = ((lpw[1] & 0x03) << 6) | (lpw[2] >> 2);
k[3] = ((lpw[2] & 0x07) << 5) | (lpw[3] >> 3);
k[4] = ((lpw[3] & 0x0F) << 4) | (lpw[4] >> 4);
k[5] = ((lpw[4] & 0x1F) << 3) | (lpw[5] >> 5);
k[6] = ((lpw[5] & 0x3F) << 2) | (lpw[6] >> 6);
k[7] = ((lpw[6] & 0x7F) << 1);
des_set_key_and_parity( key, k );
}
static int chk_lanman(
const struct berval *scheme,
const struct berval *passwd,
const struct berval *cred,
const char **text )
{
ber_len_t i;
char UcasePassword[15];
des_key key;
des_context schedule;
des_data_block StdText = "KGS!@#$%";
des_data_block PasswordHash1, PasswordHash2;
char PasswordHash[33], storedPasswordHash[33];
for( i=0; i<cred->bv_len; i++) {
if(cred->bv_val[i] == '\0') {
return LUTIL_PASSWD_ERR; /* NUL character in password */
}
}
if( cred->bv_val[i] != '\0' ) {
return LUTIL_PASSWD_ERR; /* passwd must behave like a string */
}
strncpy( UcasePassword, cred->bv_val, 14 );
UcasePassword[14] = '\0';
ldap_pvt_str2upper( UcasePassword );
lmPasswd_to_key( UcasePassword, &key );
DES_set_key_unchecked( &key, schedule );
DES_ecb_encrypt( &StdText, &PasswordHash1, schedule , DES_ENCRYPT );
if (des_failed(&PasswordHash1)) {
return LUTIL_PASSWD_ERR;
}
lmPasswd_to_key( &UcasePassword[7], &key );
DES_set_key_unchecked( &key, schedule );
DES_ecb_encrypt( &StdText, &PasswordHash2, schedule , DES_ENCRYPT );
if (des_failed(&PasswordHash2)) {
return LUTIL_PASSWD_ERR;
}
des_finish( &key, schedule );
sprintf( PasswordHash, "%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x",
PasswordHash1[0],PasswordHash1[1],PasswordHash1[2],PasswordHash1[3],
PasswordHash1[4],PasswordHash1[5],PasswordHash1[6],PasswordHash1[7],
PasswordHash2[0],PasswordHash2[1],PasswordHash2[2],PasswordHash2[3],
PasswordHash2[4],PasswordHash2[5],PasswordHash2[6],PasswordHash2[7] );
/* as a precaution convert stored password hash to lower case */
strncpy( storedPasswordHash, passwd->bv_val, 32 );
storedPasswordHash[32] = '\0';
ldap_pvt_str2lower( storedPasswordHash );
return memcmp( PasswordHash, storedPasswordHash, 32) ? LUTIL_PASSWD_ERR : LUTIL_PASSWD_OK;
}
#endif /* SLAPD_LMHASH */
#ifdef SLAPD_CRYPT
static int lutil_crypt(
const char *key,
const char *salt,
char **hash )
{
char *cr = crypt( key, salt );
int rc;
if( cr == NULL || cr[0] == '\0' ) {
/* salt must have been invalid */
rc = LUTIL_PASSWD_ERR;
} else {
if ( hash ) {
*hash = ber_strdup( cr );
rc = LUTIL_PASSWD_OK;
} else {
rc = strcmp( salt, cr ) ? LUTIL_PASSWD_ERR : LUTIL_PASSWD_OK;
}
}
return rc;
}
static int chk_crypt(
const struct berval *sc,
const struct berval * passwd,
const struct berval * cred,
const char **text )
{
unsigned int i;
for( i=0; i<cred->bv_len; i++) {
if(cred->bv_val[i] == '\0') {
return LUTIL_PASSWD_ERR; /* NUL character in password */
}
}
if( cred->bv_val[i] != '\0' ) {
return LUTIL_PASSWD_ERR; /* cred must behave like a string */
}
if( passwd->bv_len < 2 ) {
return LUTIL_PASSWD_ERR; /* passwd must be at least two characters long */
}
for( i=0; i<passwd->bv_len; i++) {
if(passwd->bv_val[i] == '\0') {
return LUTIL_PASSWD_ERR; /* NUL character in password */
}
}
if( passwd->bv_val[i] != '\0' ) {
return LUTIL_PASSWD_ERR; /* passwd must behave like a string */
}
return lutil_cryptptr( cred->bv_val, passwd->bv_val, NULL );
}
# if defined( HAVE_GETPWNAM ) && defined( HAVE_STRUCT_PASSWD_PW_PASSWD )
static int chk_unix(
const struct berval *sc,
const struct berval * passwd,
const struct berval * cred,
const char **text )
{
unsigned int i;
char *pw;
for( i=0; i<cred->bv_len; i++) {
if(cred->bv_val[i] == '\0') {
return LUTIL_PASSWD_ERR; /* NUL character in password */
}
}
if( cred->bv_val[i] != '\0' ) {
return LUTIL_PASSWD_ERR; /* cred must behave like a string */
}
for( i=0; i<passwd->bv_len; i++) {
if(passwd->bv_val[i] == '\0') {
return LUTIL_PASSWD_ERR; /* NUL character in password */
}
}
if( passwd->bv_val[i] != '\0' ) {
return LUTIL_PASSWD_ERR; /* passwd must behave like a string */
}
{
struct passwd *pwd = getpwnam(passwd->bv_val);
if(pwd == NULL) {
return LUTIL_PASSWD_ERR; /* not found */
}
pw = pwd->pw_passwd;
}
# ifdef HAVE_GETSPNAM
{
struct spwd *spwd = getspnam(passwd->bv_val);
if(spwd != NULL) {
pw = spwd->sp_pwdp;
}
}
# endif
# ifdef HAVE_AIX_SECURITY
{
struct userpw *upw = getuserpw(passwd->bv_val);
if (upw != NULL) {
pw = upw->upw_passwd;
}
}
# endif
if( pw == NULL || pw[0] == '\0' || pw[1] == '\0' ) {
/* password must must be at least two characters long */
return LUTIL_PASSWD_ERR;
}
return lutil_cryptptr( cred->bv_val, pw, NULL );
}
# endif
#endif
/* PASSWORD GENERATION ROUTINES */
#ifdef LUTIL_SHA1_BYTES
static int hash_ssha1(
const struct berval *scheme,
const struct berval *passwd,
struct berval *hash,
const char **text )
{
lutil_SHA1_CTX SHA1context;
unsigned char SHA1digest[LUTIL_SHA1_BYTES];
char saltdata[SALT_SIZE];
struct berval digest;
struct berval salt;
digest.bv_val = (char *) SHA1digest;
digest.bv_len = sizeof(SHA1digest);
salt.bv_val = saltdata;
salt.bv_len = sizeof(saltdata);
if( lutil_entropy( (unsigned char *) salt.bv_val, salt.bv_len) < 0 ) {
return LUTIL_PASSWD_ERR;
}
lutil_SHA1Init( &SHA1context );
lutil_SHA1Update( &SHA1context,
(const unsigned char *)passwd->bv_val, passwd->bv_len );
lutil_SHA1Update( &SHA1context,
(const unsigned char *)salt.bv_val, salt.bv_len );
lutil_SHA1Final( SHA1digest, &SHA1context );
return lutil_passwd_string64( scheme, &digest, hash, &salt);
}
static int hash_sha1(
const struct berval *scheme,
const struct berval *passwd,
struct berval *hash,
const char **text )
{
lutil_SHA1_CTX SHA1context;
unsigned char SHA1digest[LUTIL_SHA1_BYTES];
struct berval digest;
digest.bv_val = (char *) SHA1digest;
digest.bv_len = sizeof(SHA1digest);
lutil_SHA1Init( &SHA1context );
lutil_SHA1Update( &SHA1context,
(const unsigned char *)passwd->bv_val, passwd->bv_len );
lutil_SHA1Final( SHA1digest, &SHA1context );
return lutil_passwd_string64( scheme, &digest, hash, NULL);
}
#endif
static int hash_smd5(
const struct berval *scheme,
const struct berval *passwd,
struct berval *hash,
const char **text )
{
lutil_MD5_CTX MD5context;
unsigned char MD5digest[LUTIL_MD5_BYTES];
char saltdata[SALT_SIZE];
struct berval digest;
struct berval salt;
digest.bv_val = (char *) MD5digest;
digest.bv_len = sizeof(MD5digest);
salt.bv_val = saltdata;
salt.bv_len = sizeof(saltdata);
if( lutil_entropy( (unsigned char *) salt.bv_val, salt.bv_len) < 0 ) {
return LUTIL_PASSWD_ERR;
}
lutil_MD5Init( &MD5context );
lutil_MD5Update( &MD5context,
(const unsigned char *) passwd->bv_val, passwd->bv_len );
lutil_MD5Update( &MD5context,
(const unsigned char *) salt.bv_val, salt.bv_len );
lutil_MD5Final( MD5digest, &MD5context );
return lutil_passwd_string64( scheme, &digest, hash, &salt );
}
static int hash_md5(
const struct berval *scheme,
const struct berval *passwd,
struct berval *hash,
const char **text )
{
lutil_MD5_CTX MD5context;
unsigned char MD5digest[LUTIL_MD5_BYTES];
struct berval digest;
digest.bv_val = (char *) MD5digest;
digest.bv_len = sizeof(MD5digest);
lutil_MD5Init( &MD5context );
lutil_MD5Update( &MD5context,
(const unsigned char *) passwd->bv_val, passwd->bv_len );
lutil_MD5Final( MD5digest, &MD5context );
return lutil_passwd_string64( scheme, &digest, hash, NULL );
;
}
#ifdef SLAPD_LMHASH
static int hash_lanman(
const struct berval *scheme,
const struct berval *passwd,
struct berval *hash,
const char **text )
{
ber_len_t i;
char UcasePassword[15];
des_key key;
des_context schedule;
des_data_block StdText = "KGS!@#$%";
des_data_block PasswordHash1, PasswordHash2;
char PasswordHash[33];
for( i=0; i<passwd->bv_len; i++) {
if(passwd->bv_val[i] == '\0') {
return LUTIL_PASSWD_ERR; /* NUL character in password */
}
}
if( passwd->bv_val[i] != '\0' ) {
return LUTIL_PASSWD_ERR; /* passwd must behave like a string */
}
strncpy( UcasePassword, passwd->bv_val, 14 );
UcasePassword[14] = '\0';
ldap_pvt_str2upper( UcasePassword );
lmPasswd_to_key( UcasePassword, &key );
DES_set_key_unchecked( &key, schedule );
DES_ecb_encrypt( &StdText, &PasswordHash1, schedule , DES_ENCRYPT );
lmPasswd_to_key( &UcasePassword[7], &key );
DES_set_key_unchecked( &key, schedule );
DES_ecb_encrypt( &StdText, &PasswordHash2, schedule , DES_ENCRYPT );
sprintf( PasswordHash, "%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x",
PasswordHash1[0],PasswordHash1[1],PasswordHash1[2],PasswordHash1[3],
PasswordHash1[4],PasswordHash1[5],PasswordHash1[6],PasswordHash1[7],
PasswordHash2[0],PasswordHash2[1],PasswordHash2[2],PasswordHash2[3],
PasswordHash2[4],PasswordHash2[5],PasswordHash2[6],PasswordHash2[7] );
hash->bv_val = PasswordHash;
hash->bv_len = 32;
return pw_string( scheme, hash );
}
#endif /* SLAPD_LMHASH */
#ifdef SLAPD_CRYPT
static int hash_crypt(
const struct berval *scheme,
const struct berval *passwd,
struct berval *hash,
const char **text )
{
unsigned char salt[32]; /* salt suitable for most anything */
unsigned int i;
char *save;
int rc;
for( i=0; i<passwd->bv_len; i++) {
if(passwd->bv_val[i] == '\0') {
return LUTIL_PASSWD_ERR; /* NUL character in password */
}
}
if( passwd->bv_val[i] != '\0' ) {
return LUTIL_PASSWD_ERR; /* passwd must behave like a string */
}
if( lutil_entropy( salt, sizeof( salt ) ) < 0 ) {
return LUTIL_PASSWD_ERR;
}
for( i=0; i< ( sizeof(salt) - 1 ); i++ ) {
salt[i] = crypt64[ salt[i] % (sizeof(crypt64)-1) ];
}
salt[sizeof( salt ) - 1 ] = '\0';
if( salt_format != NULL ) {
/* copy the salt we made into entropy before snprintfing
it back into the salt */
char entropy[sizeof(salt)];
strcpy( entropy, (char *) salt );
snprintf( (char *) salt, sizeof(entropy), salt_format, entropy );
}
rc = lutil_cryptptr( passwd->bv_val, (char *) salt, &hash->bv_val );
if ( rc != LUTIL_PASSWD_OK ) return rc;
if( hash->bv_val == NULL ) return -1;
hash->bv_len = strlen( hash->bv_val );
save = hash->bv_val;
if( hash->bv_len == 0 ) {
rc = LUTIL_PASSWD_ERR;
} else {
rc = pw_string( scheme, hash );
}
ber_memfree( save );
return rc;
}
#endif
int lutil_salt_format(const char *format)
{
#ifdef SLAPD_CRYPT
ber_memfree( salt_format );
salt_format = format != NULL ? ber_strdup( format ) : NULL;
#endif
return 0;
}
#ifdef SLAPD_CLEARTEXT
static int hash_clear(
const struct berval *scheme,
const struct berval *passwd,
struct berval *hash,
const char **text )
{
ber_dupbv( hash, (struct berval *)passwd );
return LUTIL_PASSWD_OK;
}
#endif
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